Abstract
Wavelet transform and multiresolution decomposition are described. Examples of the application of orthogonal wavelet transform to acoustic evoked potentials and otoacoustic emissions (OEA) are given and basic features of wavelet packets and wavelet network methods are characterized. An approach that enables the identification of local signal structures - a generalization of wavelet transform called Matching Pursuit - is presented. In the framework of this method the signal is decomposed into time-frequency ‘atoms', which offers a possibility of determination of an ‘instantaneous frequency’ with the accuracy close to the theoretical limit. The method is illustrated by application to OAE signals. The advantages and limitations of the methods presented are discussed.
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